用于运动捕获数据分析和可视化的软件包
我是一个在R的新手,喜欢它,但我感到惊讶的是,一个完整的缺乏分析运动捕获数据的软件包。
最简单的运动捕捉文件只是一个巨大的表,对每一点附加到一个记录的主题和每帧捕获的'XYZ‘坐标。我知道,我可以在R中找到独立的方法和函数来执行复杂的操作(如主成分分析),也可以为所有的点绘制时间序列。但当我在寻找一些例子,这些例子也可以教我如何分析人类的运动,并为数据的可视化表示提供一个很好的工具箱时,R变成了一片寒冷的沙漠。另一方面,MATLAB有运动捕捉工具箱和MoCap工具箱,特别是后者在绘制和分析捕获信息方面有很好的选择。但老实说,与R相比,MATLAB的可视化引擎相当难看。
对R运动捕获包的一些具体要求将包括:
- 读取、编辑、可视化和转换mocap数据
- 动力学和运动学分析
- 时间序列与主成分分析
- 动画数据
我是不是漏掉了一些东西(在我的谷歌中),还是真的没有为R提供的mocap软件包?有没有人尝试玩R中的运动捕捉数据?你能给我指路吗?
回答 3
Stack Overflow用户
发布于 2017-08-09 10:13:25
更新,2019年12月:看起来Steen的mocapr软件包比我开发的工具强大得多。好好享受吧。
看看我的包,mocap包:https://github.com/gsimchoni/mocap
这远非完美,但这只是一个开始,目前只在CMU图形实验室运动捕获数据库 ASF/AMC文件上进行测试。
这里是一篇包含更多细节的博客文章。
Stack Overflow用户
发布于 2017-09-13 02:08:13
我使用包rgl从运动手势数据集创建动画。虽然它不是专门为手势数据制作的包,但您可以使用它。
在下面的例子中,我们有关于上身8点的手势数据:脊柱、肩部中心、头部、左肩、左手腕、右肩和右手腕。研究对象放下双手,右臂向上移动。
我将数据集限制为6次观测(如果您愿意的话,时间是秒),因为否则在这里发布会变得很大。
原始数据集中的每一行对应一个时间观测,每个体点的坐标定义为4组(每四列是一个正文点)。在每一行,我们有"x","y","z","br“代表脊柱,然后"x","y","z","br”代表肩部中心,等等。"br“总是1,以便将每个身体部分的三个坐标(x,y,z)分开。
以下是原始(受限)数据集:
DATA.time.obs<-rbind(c(-0.06431,0.101546,2.990067,1,-0.091378,0.165703,3.029513,1,-0.090019,0.518603,3.022399,1,-0.042211,0.687271,2.987086,1,-0.231384,0.419869,2.953286,1,-0.299824,0.173991,2.882627,1,0.063367,0.399478,3.136306,1,0.134907,0.176191,3.159998,1),
c(-0.067185,0.102249,2.990185,1,-0.095083,0.166589,3.028688,1,-0.093098,0.519146,3.019775,1,-0.043808,0.687041,2.987671,1,-0.234622,0.417481,2.94581,1,-0.300324,0.169313,2.869782,1,0.056816,0.398384,3.135578,1,0.134536,0.180875,3.162843,1),
c(-0.069282,0.102964,2.989943,1,-0.098594,0.167465,3.027638,1,-0.097184,0.52169,3.019556,1,-0.046626,0.695406,2.989244,1,-0.23478,0.417057,2.943475,1,-0.300101,0.168628,2.860515,1,0.053793,0.395444,3.143226,1,0.134175,0.182816,3.172053,1),
c(-0.070924,0.102948,2.989369,1,-0.101156,0.167554,3.026474,1,-0.100244,0.522901,3.018919,1,-0.049834,0.696996,2.987933,1,-0.235301,0.416329,2.939331,1,-0.301339,0.170203,2.85497,1,0.04762,0.390872,3.142792,1,0.14041,0.186844,3.182172,1),
c(-0.071973,0.103372,2.988788,1,-0.103215,0.16776,3.025409,1,-0.102334,0.52281,3.019341,1,-0.051298,0.697003,2.991192,1,-0.235497,0.414859,2.935161,1,-0.297678,0.15788,2.833734,1,0.045973,0.386249,3.147609,1,0.14408,0.1916,3.204443,1),
c(-0.073223,0.104598,2.988132,1,-0.106597,0.168971,3.022554,1,-0.106778,0.522688,3.015138,1,-0.051867,0.697781,2.990767,1,-0.236137,0.414773,2.931317,1,-0.297552,0.153462,2.827027,1,0.039316,0.39146,3.166831,1,0.175061,0.214336,3.207459,1))对于每个时间点,我们可以创建一个矩阵,其中每一行将是一个体点,而列将是坐标:
# Single time point for analysis
time.point<-1
# Number of coordinates
coordinates<-4
# Number of body points
body.points<-dim(DATA.time.obs)[2]/coordinates
# Total time of gesture
total.time<-dim(DATA.time.obs)[1]
# Transform data for a single time. observation into a matrix
DATA.matrix<-matrix(DATA.time.obs[1,],c(body.points,coordinates),byrow = TRUE)
colnames(DATA.matrix)<-c("x","y","z","br")
rownames(DATA.matrix)<-c("hip_center","spine","shoulder_center","head",
"left_shoulder","left_wrist","right_shoulder",
"right_wrist")因此,在每一个时间点,我们都有这样的矩阵:
x y z br
hip_center -0.064310 0.101546 2.990067 1
spine -0.091378 0.165703 3.029513 1
shoulder_center -0.090019 0.518603 3.022399 1
head -0.042211 0.687271 2.987086 1
left_shoulder -0.231384 0.419869 2.953286 1
left_wrist -0.299824 0.173991 2.882627 1
right_shoulder 0.063367 0.399478 3.136306 1
right_wrist 0.134907 0.176191 3.159998 1现在我们使用rgl来绘制这个矩阵中的数据:
#install.packages("rgl")
library(rgl)
# INITIAL PLOT
x<-unlist(DATA.matrix[,1])
y<-unlist(DATA.matrix[,2])
z<-unlist(DATA.matrix[,3])
# OPEN A BLANK 3D PLOT AND SET INITIAL NEUTRAL VIEWPOINT
open3d()
rgl.viewpoint(userMatrix=rotationMatrix(0,0,0,0))
# SET FIGURE POSITION
# This is variable. It will depend on your dataset
# I've found that for this specific dataset a rotation
# of -0.7*pi on the Y axis works
# You can also plot and select the best view with
# your mouse. This selected view will be passed on
# to the animation.
U <- par3d("userMatrix")
par3d(userMatrix = rotate3d(U, -0.7*pi, 0,1,0))
# PLOT POINTS
points3d(x=x,y=y,z=z,size=6,col="blue")
text3d(x=x,y=y,z=z,texts=1:8,adj=c(-0.1,1.5),cex=0.8)
# You can also plot each body point name.
# This might be helpful when you don't know the
# initial orientation of your plot
# text3d(x=x,y=y,z=z,texts=rownames(DATA.matrix),
# cex=0.6,adj=c(-0.1,1.5))
# Based on the plotted figure, connect the line segments
CONNECTOR<-c(1,2,2,3,3,4,3,5,3,7,5,6,7,8)
segments3d(x=x[CONNECTOR],y=y[CONNECTOR],z=z[CONNECTOR],col="red")那么,我们有一个:
要创建一个动画,我们可以将所有这些都放入一个函数中并使用lapply。
movement.points<-function(DATA,time.point,CONNECTOR,body.points,coordinates){
DATA.time<-DATA[time.point,]
DATA.time<-matrix(DATA.time,c(body.points,coordinates),byrow = TRUE)
x<-unlist(DATA.time[,1])
y<-unlist(DATA.time[,2])
z<-unlist(DATA.time[,3])
# I used next3d instead of open3d because now I want R to plot
# several plots on top of our original, creating the animation
next3d(reuse=FALSE)
points3d(x=x,y=y,z=z,size=6,col="blue")
segments3d(x=c(x,x[CONNECTOR]),y=c(y,y[CONNECTOR]),z=c(z,z[CONNECTOR]),col="red")
# You can control the "velocity" of the animation by changing the
# parameter below. Smaller = faster
Sys.sleep(0.5)
}我知道这个解决方案并不优雅,但它有效。
Stack Overflow用户
发布于 2011-12-27 14:45:59
从对RSeek的快速搜索来看,R没有可用的运动捕获包,看起来您需要为每个函数找到相应的功能。比较一般的方法应该比较容易找到(插值、细分、变换/投影、时间序列分析、pca、矩阵分析等),而为特定事物编写自己的定制函数的过程,比如估计瞬时动能,可能是最好的学习方法!
您可能会发现普莱尔对于创建数据和可视化运动的动画包很有用。
https://stackoverflow.com/questions/8156925
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